MARSON MT82Ag 2D Scan Engine User Guide

June 4, 2024
MARSON

MARSON logo

MT82Ag
(2D Scan Engine)
Integration Guide

MARSON MT82Ag 2D Scan Engine

INTRODUCTION

MT82Ag One-piece Compact 2D Scan Engine provides snappy scanning performance at a competitive cost and compact form factor. With its all-in-one design, the MT82Ag 2D  scan engine can be easily integrated with specific applications such as access control, lottery kiosk, and consumer electronics.
The MT82Ag 2D Scan Engine consists of 1 illumination LED, 1 aimer LED, and a high-quality image sensor with a microprocessor that contains powerful firmware to control all aspects of operations and enable communication with the host system over the standard set of communication interfaces.
Two interfaces, UART & USB, are available. UART interface communicates with the host system over TTL-level RS232 communication; the USB interface emulates a USB HID  Keyboard or Virtual COM port device and communicates with the host system over USB.

1-1. Block Diagram

MARSON MT82Ag 2D Scan Engine - BBlloocckk
DDiiaaggrraamm

1-2. Electric Interface
1-2-1. Pin Assignment

Pin#| CART| USB| I/O| Description| Schematic Example
---|---|---|---|---|---
1| NC| NC| ————| Floating|
2| VCC| VCC| ————| Supply voltage input. Must always be connected to a 3.3V power supply.|
3| GND| GND| ————| Power and signal ground.|

4| RDX| RDX| Input| UART TTL data input.| ****

MT82Ag Scan Engine, Integration Guide, V0.7

Pin#| CART| USB| I/O| Description| Schematic Example
---|---|---|---|---|---
5| TXD| ————| Output| UART TTL data output.|
6| ————| USB_D-| Bidirectional| USB Differential Signal Transmission (USB D-)|
7| ————| USB_D+| Bidirectional| USB Differential Signal Transmission

(USB D+)

| ****
8| NC| NC| ————| Floating|
9| Buzzer PWM| Buzzer PWM| Output| Active High: it indicates the status of Power-Up or a successful barcode decoded.

The PWM-controlled signal can be used to drive an external buzzer for a successful barcode decoded (Good Read).

| **
Pin#| CART| USB| I/O| Description| Schematic Example
---|---|---|---|---|---
10| Good Read LED| Good Read LED| Output| When scanning is successful (Good Read), it outputs a high-level pulse, whose load capacity is limited and not enough to drive LED directly.
A supporting LED drive for the circuit is required.| **

11| Reset| Reset| Input| Keeping a low level for at least 100us and returning to a high level or floating state, the scan engine restarts.|
12| Trigger Input| Trigger Input| Input| High: Stop Scanning Low: Start Scanning


*Warning:

1. Pull low at power-up will prompt the scan engine into firmware update mode.

| Once the trigger is pressed (pull low), the scanning

operation continues until a barcode is successfully decoded or the trigger is released (pull high). To proceed to the next scanning operation, release (pull high) first and press (pull low) the trigger again. A minimum of 50ms interval is recommended between two trigger signals.

1-2-2. Electric Characteristics

Operating Voltage
Ta=25°C

Symbol Ratings Min Typical Max Unit
V DD Power supply 3.0 3.3 3.6 V
V IL Input low level 0.8
VIA Input high level 2
V OL Output low level 0.4
VEOH Output high level VDD-0.4

Operating Current
Ta=25°C, VDD=3.3V

Ratings Max Unit
Standby Current 60

mA

Working Current| 110

SPECIFICATIONS

2-1. Introduction
This chapter provides technical specifications of the MT82Ag. The operating method, scanning range, and scan angle are also presented.
2-2. Technical Specifications

Optic & Performance

Light Source| white LED
Aiming| visible red LED linear aimer
Sensor| 640 x 480 pixels
Scan Rate| 30 frames/ sec
Resolution| 5mil/ 0.125mm (Code 39)
**Field of View**| Horizontal 35°
Vertical 27°


Scan Angle

| Pitch Angle ±55°
Skew Angle ±55°
Roll Angle 360°
Print Contrast Ratio| 10%
Width of Field| 156mm (13Mil Code39)


Typical
Depth Of Field
(Environment: 800 lux)

| 5 Mil Code39: 40 ~ 121mm
13 Mil UPC/EAN: 44 ~ 324mm
15 Mil QR Code: 28 ~ 209mm
6.67 Mil PDF417: 36 ~ 116mm
10 Mil Data Matrix: 22 ~ 121mm
Physical Characteristics
Dimension| W21.5 x L14.3 x H11 mm
Weight| 2.6g
Color| Black
Material| Plastic
Connector| 12pin ZIF (pitch=0.5mm)
Cable| 12pin flex cable (pitch=0.5mm)
Electrical
Operation Voltage| 3.3VDC ± 5%
---|---
Working Current| < 170 mA
Standby Current| < 70 mA
Connectivity


Interface

| UART (TTL-level RS232)
USB (HID Keyboard)
USB (Virtual COM)
User Environment
Operating Temperature| -20°C ~ 60°C
Storage Temperature| -40°C ~ 80°C
Humidity| 0% ~ 95%RH (Non-condensing)
Drop Durability| 1.5M
Ambient Light| 100,000 Lux (Sunlight)
1D Symbologies| UPC-A/ UPC-E
EAN-8/ EAN-13
Codabar
Matrix 2 of 5
Code 93
Code 128
Code 39
Interleaved 2 of 5
**2D Symbologies| QR Code
Micro QR Code PDF417
Data Matrix
Aztec
Regulatory
****
ED| Functional after 4KV contact, 8KV air discharge (It requires housing that is designed for ESD protection and stray from electric fields.)
EMC| FCC Part 15B Class B, CE EN55032/35
Safety Approval| EN62471 (Exempt Group)
Environmental**| WEEE, RoHS 2.0

2-3. Interface
2-3-1. UART Interface
Below are default communication protocols:
Baud rate: 9600
Data Bits: 8
Parity: None
Stop Bit : 1
Handshaking: None
Flow Control Timeout : None
ACK/NAK : OFF
BCC: OFF

Interface Configuration Barcode:| 2-3-2. USB HID Interface
Interface Configuration Barcode:| 2-3-3. USB VCP Interface
Interface Configuration Barcode:
---|---|---
| |

2-4. Operation Method

  1. At power-up, the MT82Ag sends the Power-Up signals over Buzzer and LED pins as an indication that the MT82Ag enters Standby Mode and is ready for operation.
  2. Once the MT82Ag is triggered by either hardware or software method, MT82Ag will emit a beam of light that is aligned with the sensor’s field of view.
  3. The area image sensor captures the image of the barcode and produces an analog waveform, which is sampled and analyzed by the decoder firmware running on the MT82Ag.
  4. Upon a successful barcode decoded, the MT82Ag turns off the illumination LEDs, sending the Good Read signals over Buzzer and LED pins and transmitting the decoded data to the host.

2-5. Mechanical Dimension

(Unit = mm)

MARSON MT82Ag 2D Scan Engine - DDiimmeennssiioonn

2-6. Connector Specification
Below is the recommended 12-pin 0.5-pitch FPC connector on the host side.

MARSON MT82Ag 2D Scan Engine - fig

 INSTALLATION

The scan engine is designed specifically for integration into customers’ housing for OEM applications. However, the scan engine’s performance will be adversely affected or permanently damaged when mounted into an unsuitable enclosure.
Warning: The limited warranty is void if the following recommendations are not adhered to when mounting the scan engine.
3-1. Electrostatic Discharge Cautions
All scan engines are shipped in ESD protective packaging due to the sensitive nature of the exposed electrical components.

  1. ALWAYS use grounding wrist straps and a grounded work area when unpacking and handling the scan engine.
  2. Mount the scan engine in a housing that is designed for ESD protection and stray electric fields.

3-2. Mechanical Dimension
When securing the scan engine by utilizing the machine screws:

  1. Leave sufficient space to accommodate the maximum size of the scan engine.
  2. Do not exceed 1kg-cm (0.86 lb-in) of torque when securing the scan engine to the host.
  3. Use safe ESD practices when handling and mounting the scan engine.

3-3. Window Materials
Following are descriptions of three popular window materials:

  1. Poly-methyl Methacrylic (PMMA)
  2. Allyl Diglycol Carbonate (ADC)
  3.  Chemically tempered float glass

Cell Cast Acrylic (ASTM: PMMA)
Cell cast Acrylic or Poly-methyl Methacrylic is fabricated by casting acrylic between two precision sheets of glass. This material has very good optical quality but is relatively soft and susceptible to attack by chemicals, mechanical stress, and UV light. It is strongly recommended to have acrylic hard-coated with Polysiloxane to provide abrasion resistance and protection from environmental factors. Acrylic can be laser-cut into odd shapes and ultrasonically welded.
Cell Cast ADC, Allyl Diglycol Carbonate (ASTM: ADC)
Also known as CR-39TM, ADC, a thermal setting plastic widely used for plastic eyeglasses, has excellent chemical and environmental resistance. It also has an inherently moderate surface hardness and therefore does not require hard- coating. This material cannot be ultrasonically welded.
Chemically Tempered Float Glass
Glass is a hard material that provides excellent scratch and abrasion resistance. However, un-annealed glass is brittle. Increased flexibility strength with minimal optical distortion requires chemical tempering. Glass cannot be ultrasonically welded and is difficult to cut into odd shapes.

Property Description
Spectral Transmission 85% minimum from 635 to 690 nanometers
Thickness < 1 mm
Coating Both sides are to be anti-reflection coated to provide 1%

maximum reflectivity from 635 to 690 nanometers at a nominal window tilt angle. An anti-reflection coating can reduce the light that is reflected back to the host case. Coatings will comply with the hardness adherence requirements of MIL-M-13508.

3-4. Window Placement

The distance between the window and front of MT82Ag should not exceed L=0.5mm
The thickness of the window should not exceed 1mm
3-5. Window Size

MARSON MT82Ag 2D Scan Engine - fig2

The window size should ensure that field of view is not blocked, and the illumination area should not be blocked as well. For the size of the window, please refer to the above diagram of each optical area.
3-6. Window Care
In the aspect of the window, the performance of MT82Ag will be reduced due to any kind of scratch. Thus, reducing the damage to windows, there are a few things that have to be noticed.

  1. Avoid touching the window as much as possible.
  2. When cleaning the window surface, please use a non-abrasive cleaning cloth, and then gently wipe the host window with the cloth that is already sprayed with glass cleaner.

REGULATIONS

The MT82Ag scan engine conforms to the following regulations:

  1. Electromagnetic Compliance – CE EN55032/35
  2. Electromagnetic Interference – FCC Part 15B Class B
  3. Photobiological Safety – EN62471 (Exempt Group)
  4. Environmental Regulations – RoHS 2.0, WEEE

 DEVELOPMENT KIT

MARSON MB120 Demo Kit (P/N: 11C0-5020000 ) enables the development of products and systems using the MT82Ag on the MS Windows OS platform. Besides the Multi  I/O board (P/N: 9014-2700000 ), the MB120 Demo Kit provides the software and hardware tools required for testing the MT82Ag applications before integrating them into the host device. Please contact your sales representative for ordering information.
MB100 Multi I/O Board (P/N: 9014-2700000)

MARSON MT82Ag 2D Scan Engine - fig3| MARSON
MT82Ag 2D Scan Engine - fig4
---|---

PACKAGING

  1. Tray (size: 24.7 x 13.7 x 2.7cm): Each tray contains 8pcs of MT82Ag.MARSON MT82Ag 2D Scan Engine - fig5
  2. Box (size: 25 x 14 x 3.3cm): Each Box contains 1pc of tray, or 8pcs of MT82Ag.MARSON MT82Ag 2D Scan Engine - fig6
  3. Carton (size: 30 x 27 x 28cm): Each Carton contains 16pcs of boxes, or 128pcs of MT82Ag.MARSON MT82Ag 2D Scan Engine - fig7

VERSION HISTORY

Rev. Date Description Issued Checked
0.1 2020.09.15 Preliminary Draft Release Shaw Kenji
0.2 2020.09.23 Secondary Draft Revision Revised Model No. to MT82Ag Added
Development Kit Shaw Kenji
0.3 2020.12.25 Updated Dimension Shaw Daniel
0.4 2021.01.20 Added Packaging Updated Typical Depth of Field Shaw Kenji
0.5 2021.01.21 Updated Working/Standby Current Shaw Kenji
0.6 2021.04.06 Added Aztec Updated Development Kit Shaw Kenji
0.7 2021.12.13 Updated Typical D.O.F, Dimension & Regulations Shaw Kenji

Marson Technology Co., Ltd.
9F., 108-3, Mincyuan Rd., Sindian Dist., New Taipei City, Taiwan
TEL: 886-2-2218-1633
FAX: 886-2-2218-6638
E-mail: info@marson.com.tw
Web: www.marsontech.com

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